Short-period AGWs of the measopause region observed by all-sky imager over Abastumani

Main Article Content

Giorgi Sh. Javakhishvili

Abstract

The short-period (about 5-10 min) atmospheric gravity waves (AGWs) were observed in the mesopause region over Abastumani in by the hydroxyl infrared all-sky imager. The specifics of their propagation are given. The importance of these small-scale AGWs for monitoring the wave-like processes in the mesopause and study the lower-upper atmosphere coupling in the Caucasus region caused by orographic effects are also noted.

Published: Apr 6, 2016

Article Details

How to Cite
Javakhishvili, G. S. (2016). Short-period AGWs of the measopause region observed by all-sky imager over Abastumani. Journals of Georgian Geophysical Society, 18(18). Retrieved from https://ggs.openjournals.ge/index.php/GGS/article/view/1741
Section
Articles

References

Hines, C.O., Can. J. Phys., 1960, v.38, pp. 1441–1481.

Didebulidze, G.G., Pataraya A.D. J. Atmos. Sol.-Terr. Phys., 1999, v.61, pp. 479-489.

Didebulidze G.G., Chilingarashvili S.P., Kvavadze N.D., Sharadze Z.S., Phys. Chem. Earth B., 2000, v. 25(5/6), pp.443-446.

Didebulidze, G.G., Chilingarashvili, S.P., Toroshelidze, T.I., J. Atmos. Sol.-Terr. Phys., 2002, v.64, pp.1105-1116.

Didebulidze, G. G., Kafkalidis, J. F., Pataraya, A. D. J. Atmos. Sol.-Terr. Phys., 2004, v. 66, pp. 715-732.

Yue, J., Nakamura, T., She, C.-Y., Weber, M., Lyons, W., Li, T. Ann. Gephys., 2010, v. 28, pp. 1401-1408.

Khomich, V.Yu., A.I. Semenov, and N.N. Shefov. Airglow as an Indicator of Upper Atmospheric Structure and Dynamics, 2008, Springer, Berlin Heidelberg.

Taylor, M.J., Ryan, E.H., Tuan T.F. and Edwards E., Evidense of preferential directions for gravity wave propagation due to wind filtering in the middle atmosphere, J. Geophys. Res., 1993, 98(A4), pp. 6047-6057.

Фишкова Л.М., 1983. Ночное излучение среднеширотной верхней атмосферы Земли, Тбилиси, «Мецниереба».

McDade, I.C., Murtagh, D.P., Greer, G.H., Dickinson, P.H.G., Witt, G., Stegman, J., Thomas, I., Jenkins, D.B., Planetary and Space Science, 1986, v.34, pp.789–800;

Mcdade, I.C., Llewellin, E.J., Murtagh, D.P., Greer, G.H., Planetary and Space Science, 1987, v. 35 (9), pp.1137–1147.

Cai, X., Yuan, T., Zhao, Y., Pautet, P.-D., Taylor, M. J., Pendleton, W.R. J. Geophys. Res.: Space Physics, 2014, v. 119 (8), pp. 6852-6864.

Bossert, K., Fritts, D.C., Pautet, P.-D., Taylor, M. J., Williams, B.P., Pendelton, W.R. J. Geophys. Res.: Atmospheres, 2014, v. 119(16), pp. 9765-9778.

Nielsen, K., Taylor, M. J., Hibbins, R. E., Jarvis, M. J., Russell, J. M. J. Geophys. Res., 2012, v. 117, D05124, doi:10.1029/2011JD016261.

Picone, J.M., Hedin, A.E., Drob, D.P., Aikin, A.C., J. Geophys. Res., 2002, v. 107(A12), http://dx.doi.org/10.1029/2002JA009,430.